special articulated vacuum cup holders with …
TRANSCRIPT
2
2.142
06 110 42 23.74 17 29 114 13 83.5 01 110 10 M 00 06 59 0.49
Note: The force of the vacuum cups indicated in the table represents 1/3 of the value of the theoretical force calculated at a level of vacuum of -75 KPa and a factor of safety 3.Transformation ratio: N (newton) = Kg x 9.81 (force of gravity) inch = mm ; pounds = g = Kg
25.4 453.6 0.4536
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SPECIAL ARTICULATED VACUUM CUP HOLDERS WITH COMPACT STROKE
Marble and glass sheets are usually handled with cups that take them from a horizontal plane and place them vertically or vice-versa.These special cup holders with compact stroke have been designed to minimise the lever forces between the cup and the automation fixing bush during the rotation of the sheets, as well as their sliding on the cups. They share all the technical features of the other previously described special cup holders but their overall dimensions are reduced to minimum by housing the articulated joint in the cup support, thus reducing the steel stem and the spring stroke length and modifying the brass bush, in order to allow it to be screwed directly onto the automation. Moreover, a special non-slip plastic coating fixed onto the cup support prevents the lifted load from slipping.The actual springing stroke is:- For height C= 29 mm 13 mm
VACUUM CUP HOLDERS WITH L QUICK COUPLER FOR PLASTIC HOSE Ø 4 X 6
Item Force B C D E L For vacuum cup Support included WeightKg Ø Ø item item Kg
Note: The vacuum cups are not integral parts of the cup holders and, therefore, must be ordered separately.
Vacuum cup
Vacuum
cup
VERSION 06 110 42
Support
Support
Swivel L fitting
G1 / 8 “
Non-slip coating For Ø 6 ext. hose
Sp30
Cap_02-VUOTOTECNICA_82_170_2019.indd 142 18/03/20 14:16
2
2.143
06 127 42 17.50 26.7 29 127 13.5 93.2 01 127 15 00 06 61 0.76
Note: The force of the vacuum cups indicated in the table represents 1/3 of the value of the theoretical force calculated at a level of vacuum of -75 KPa and a factor of safety 3.Transformation ratio: N (newton) = Kg x 9.81 (force of gravity) inch = mm ; pounds = g = Kg
25.4 453.6 0.4536
3D d
rawi
ngs a
re a
vaila
ble
on vu
otot
ecni
ca.n
et
SPECIAL ARTICULATED VACUUM CUP HOLDERS WITH COMPACT STROKE
VACUUM CUP HOLDERS WITH L QUICK COUPLER FOR PLASTIC HOSE Ø 6 X 8
Item Force B C D E L For vacuum cup Support included WeightKg Ø Ø item item Kg
Note: The vacuum cups are not integral parts of the cup holders and, therefore, must be ordered separately.
The actual springing stroke is:- For height C= 29 mm 13 mm
Vacuum cup
Vacuum
cup
VERSION 06 127 42
Support
Support
Non-slip
coating
For Ø 8 ext. hose
Swivel L fitting
G1 / 8 “
Sp30
Cap_02-VUOTOTECNICA_82_170_2019.indd 143 18/03/20 14:16
2
2.144
06 150 42 45.00 23 29 154 13 89.5 01 150 10 M 00 06 60 0.94
Note: The force of the vacuum cups indicated in the table represents 1/3 of the value of the theoretical force calculated at a level of vacuum of -75 KPa and a factor of safety 3.Transformation ratio: N (newton) = Kg x 9.81 (force of gravity) inch = mm ; pounds = g = Kg
25.4 453.6 0.4536
3D d
rawi
ngs a
re a
vaila
ble
on vu
otot
ecni
ca.n
et
SPECIAL ARTICULATED VACUUM CUP HOLDERS WITH COMPACT STROKE
VACUUM CUP HOLDERS WITH L QUICK COUPLER FOR PLASTIC HOSE Ø 4 X 6
Item Force B C D E L For vacuum cup Support included WeightKg Ø Ø item item Kg
Note: The vacuum cups are not integral parts of the cup holders and, therefore, must be ordered separately.
The actual springing stroke is:- For height C= 29 mm 13 mm
Vacuum cup
Vacuum
cup
VERSION 06 150 42
Support
Support
Non-slip coating
For Ø 6 ext. hose
Swivel L fitting G1 / 8 “
Sp30
Cap_02-VUOTOTECNICA_82_170_2019.indd 144 18/03/20 14:16